Artificial synapses that exploit this multifunctionality of the LC-CNT composite have uses in next-generation neuromorphic devices.The layered oxides LiNi0.6+xCo0.2-xMn0.2O2 are promising cathode materials for Li-ion batteries (LIBs) owing to their moderate energy densities and structure stabilities. In this study, we systematically investigate the effects of substitution of Co by Ni on the structures, morphologies, and electrochemical properties of LiNi0.6+xCo0.2-xMn0.2O2 (0.0 ? x ? 0.1). The physical characteristics of these materials are studied by particle size analysis, scanning electron microscopy, inductively coupled plasma-atomic emission spectroscopy, Rietveld refinement of X-ray diffraction data, and X-ray photoelectron spectroscopy. The electrochemical properties are investigated by charge-discharge cycling, galvanostatic intermittent titration, and electrochemical impedance spectroscopy. As the Co content decreases and the Ni content increases, the discharge capacity and voltage platform are slightly improved, while the initial efficiency, cycling performance, rate capability, and thermal stability gradually decrease. The decreased kinetic performance is attributed to the increased degree of cation mixing and resistance, which decreases the Li+ diffusivity. Moreover, the activation energy gradually increases with the decrease in the Co content, which decreases the low-temperature performance. Considering its cost, energy density, cycling lifetime, kinetic performance, and safety properties, LiNi0.65Co0.15Mn0.2O2 is a promising cathode candidate for use in LIBs.Treatment regimens for acute radiation syndrome have been improved over the past years. The application of appropriate therapy relies on rapid and high-throughput tests ideally conducted in the first 3 d after a radiation exposure event. We have examined the utility of blood cell counts (BCCs) 3 d post irradiation to predict clinical outcome for hematologic acute radiation syndrome (HARS). The BCCs and HARS severity information originated from data available in the System-for-Evaluation-and-Archiving-of-Radiation Accidents-based-on-Case-Histories (SEARCH). We found an almost complete discrimination of unexposed (HARS score H0) vs. irradiated individuals during model development and validation (negative predictive value &gt; 94%) when using BCC data for all 3 d. We also found that BCC data increased the correct prediction of exposed individuals from day 1 to day 3. We developed spreadsheets to calculate the likelihood of correct diagnoses of the worried-well, requirement of hospitalization (HARS 2-4), or development of severe hematopoietic syndrome (HARS 3-4). In two table-top exercises, we found the spreadsheets were confusing and cumbersome, so we converted the spreadsheets into a smartphone application, named the H-module App, designed for ease of use, wider dissemination, and accommodation of co-morbidities in the HARS severity prediction algorithm.Objectives To evaluate long term effectiveness and safety with the use of a combined radiofrequency and optical home hair removal device in all skin types and over both facial and body areas. Methods A combined intense pulsed light (IPL) and radiofrequency (RF) home device was used for hair removal. Two separate study designs were evaluated. In the first design, bilateral body areas were treated with 7 weekly procedures and then unilateral areas received up to 12 monthly maintenance treatments while the corresponding other side received no further therapy. For the second design, facial areas received 4 procedures in 2 to 5 days visits, followed by 2 weekly, and then 6 biweekly procedures. All patients in both study designs had hair count evaluations up to 12 months post their last procedure. The highest energy used was 4 J/cm?. Results In the first design, 58 subjects participated of which 15% were skin types V-VI. https://www.selleckchem.com/products/spop-i-6lc.html A total of 188 anatomical sites were treated. Hair reduction at 6 and 12 months post the last procedure was 56% and 52% respectively for the maintenance side and 47% and 37% for the non-maintenance side. For the second design, 19 subjects had 59 facial sites treated. Fifteen percent were skin types V ?VI. The overall hair reduction at the end of receiving their procedures was 45%. At 12 months post the last procedure, the hair reduction was 42%. Aside for transient mild erythema, there were no adverse effects noted. Conclusions Long term persistent hair reduction was achieved using an RF/IPL home-use hair reduction device. The combination of RF and optical energies allowed for the effective application of low energy usage. All skin types and both facial and body anatomical regions tolerated the procedures very well. J Drugs Dermatol. 2020;19(5)498-503. doi10.36849/JDD.2020.4741.In aesthetic practice, wrinkles in the upper face are commonly treated with repeat-dose injections. The objective of this study was to investigate the safety, tolerability, and efficacy of repeat-dose injections of incobotulinumtoxinA in the combined treatment of moder-ate to severe upper facial lines (UFL) [glabellar frown lines (GFL), horizontal forehead lines (HFL), and lateral periorbital lines (LPL)]. Healthy subjects (?18 years) with moderate to severe GFL, HFL, and LPL on the Merz Aesthetics Scales (MAS) at maximum contrac-tion were administered 54 to 64 U of incobotulinumtoxinA (GFL, 20 U; HFL, 10 to 20 U; LPL, 24 U) in up to four, 120-day treatment cycles. Adverse events (AE) were recorded for each cycle until 120 ± 7 days after treatment. Investigator-assessed MAS scores were evaluated for each treated area at maximum contraction on day 30 [responder = score of “none” (0) or “mild” (1)]. Subject-assessed scores for overall appearance of the upper face of “much improved” or “very much improved” were tolerated with a stable safety profile, without new formation of neutralizing antibodies and has excellent efficacy during prolonged administration. J Drugs Dermatol. 2020;19(5)461-469. doi10.36849/JDD.2020.5013.Background The relationship between actinic keratoses (AKs) and nonmelanoma skin cancers (NMSCs) is well established. Patients with field cancerization are at high risk of developing new lesions. A treatment to interrupt new lesion formation or progression is required. Objective To evaluate occurrence of AKs in high-risk patients after field aminolevulinic acid?photodynamic therapy (ALA?PDT). Methods In this randomized, parallel-group, evaluator-blinded, 52-week study, patients with 4?15 facial AKs (N = 166) were random-ized (ALA 2x vs ALA 3x vs vehicle [VEH]-pooled [VEH 2x+VEH 3x], 111) to receive 2 or 3 PDT treatments (1-hour incubation) following cryotherapy at screening. Results More ALA-treated patients than VEH-treated patients had no AKs at week 52 (ALA 2x, 36.0%, P=0.0102; ALA 3x, 37.5%, P=0.0089; VEH, 18.9%). Week 52 lesion recurrence rates were 7.7% (P=0.0004) and 6.1% (P less then 0.0001) for ALA 2x and ALA 3x, respec-tively, versus 15.5% for VEH. Therapy was well tolerated; no patient requested early termination of light treatment.